Abstract
AbstractIn this paper, a genetic algorithm for the robotic assembly line balancing problem (RALBP) is developed that supports multimodal stochastic processing times and multiple parallel-working robots per workstation. It has the objective to minimize the amount of workstations at a given production rate and probability limit for violating the cycle time (PL). The algorithm is evaluated on the BARTHOLD data set in a range of 1 % to 50 % for PL using an experimentally determined and a normal distribution for the task times. The increase of PL results in a shift of tasks from rear to front stations, because more tasks can be assigned to each station. The shift using normal distributed task times is stronger. This demonstrates the importance of realistic stochastic distribution assumptions. For practical applicability, more constraint types have to be included in the future.
Publisher
Springer International Publishing
Reference12 articles.
1. Sule, D.R.: Manufacturing Facilities: Location, Planning and Design, 2nd edn. PWS Publishing Company, Singapore (1998)
2. Stiebel, A., et al.: Monitoring and control of spot weld operations. SAE Techn. Paper Ser. (1986)
3. Podržaj, P., et al.: Overview of resistance spot welding control. Sci. Technol. Weld. Join. (2008)
4. Bosch Rexroth AG. Rexroth PSI 6xxx - UI regulation and monitoring
5. Aǧpak, K., Gökçen, H.:. A chance-constrained approach to stochastic line balancing problem. Eur. J. Oper. Res. (2007)
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